Bone anchor head extender

ABSTRACT

A pedicle screw tulip head extender. The extender can include an upper body portion joined to a lower body portion. The upper body portion can have two opposing arms extending upwardly from a curved lower surface to define a substantially U-shaped interior channel having a first channel axis, the curved lower surface defining an access opening extending through the upper body portion in a direction generally perpendicular to the first channel axis. The lower body portion can extend downwardly as a protrusion from the upper body portion and can be joined to the upper body portion and can have first and second sides, the first and second sides being substantially planar and parallel and separated by an interior portion, the first and second sides defining a protrusion height and a protrusion width. A screw can be disposed in the interior portion and have external threads defining a thread diameter greater than the protrusion width.

This application claims the priority benefit of U.S. Provisional PatentApp. No. 62/778,663 filed Dec. 12, 2018, which is incorporated herein byreference in its entirety.

BACKGROUND

Spinal fixation systems may be used to surgically fix, adjust, and/oralign the spinal column. One type of spinal fixation system employs aspinal rod for supporting the spine and fixing, adjusting, and/oraligning all or portions of the spinal column into a desiredorientation. Attachment of the spinal rod to the spinal column has beenachieved using a variety of vertebral anchors. Pedicle screws have beenused successfully as vertebral anchors. Pedicle screws and connectors incombination with spinal rods can align and correct deformities in thenatural spinal alignment as well as repair traumatic injury. In general,a pedicle screw has a head with a receiving opening into which a spinalrod can be secured.

However, once a pedicle screw is set, i.e., screwed into a portion ofthe pedicle bone, the location of a spinal rod to be set into it is alsoset due to the fixed position of the head of the pedicle screw. It canbe the case that during the process of spinal fixation it is discoveredthat the fixed location of the head of the pedicle screw, and,therefore, the fixed location of the reduced spinal rod, is not ideal.

Accordingly, there remains an unmet need for an apparatus, system, andmethod to provide for variable positioning of a spinal rod in a fixedpedicle screw.

Further, there remains an unmet need for spinal fixation apparatus thatpermits greater flexibility for neuromuscular and revision cases byproviding for a greater variety of instrumentation.

SUMMARY

A bone anchor, such as a pedicle screw, head extender is disclosed. Theextender can include an upper body portion joined to a lower bodyportion. The upper body portion can have two opposing arms extendingupwardly from a curved lower surface to define a substantially U-shapedinterior channel having a first channel axis, the curved lower surfacedefining an access opening extending through the upper body portion in adirection generally perpendicular to the first channel axis. The lowerbody portion can extend downwardly as a protrusion from the upper bodyportion and can be joined to the upper body portion and can have firstand second sides, the first and second sides being substantially planarand parallel and separated by an interior portion, the first and secondsides defining a protrusion height and a protrusion width. A screw canbe disposed in the interior portion and have external threads defining athread diameter greater than the protrusion width.

BRIEF DESCRIPTION OF THE DRAWINGS

The present disclosure will be more readily understood from a detaileddescription of some example embodiments taken in conjunction with thefollowing figures:

FIG. 1 depicts a side elevation view of an example of a pedicle screw.

FIG. 2 depicts a partial cross-sectional view of a head of the pediclescrew of FIG. 1 .

FIG. 3 depicts a schematic representation of a pedicle screw in a bone.

FIG. 4 depicts a perspective view of one example of a pedicle screwextender of the present disclosure engaged with a pedicle screw.

FIG. 5 depicts a perspective view of the pedicle screw extender of FIG.4 .

FIG. 6 depicts a perspective view of one example of a pedicle screwextender of the present disclosure.

FIG. 7 depicts a perspective view of the pedicle screw extender of FIG.6 .

FIG. 8 depicts a top perspective view of the pedicle screw extender ofFIG. 6 .

FIG. 9 depicts a side elevation view of the pedicle screw extender ofFIG. 6 .

FIG. 10 depicts a side elevation view of the pedicle screw extender ofFIG. 6 .

FIG. 11 depicts a partial cross-sectional view of Section 11-11 of FIG.9 .

FIG. 12 depicts a partial cross-sectional view of Section 12-12 of FIG.10 .

FIG. 13 depicts a perspective view of one example of a pedicle screwextender of the present disclosure.

FIG. 14 depicts a perspective view of one example of a pedicle screwextender of the present disclosure engaged to head of a pedicle screw.

FIG. 15 depicts a perspective view of a portion of the pedicle screwextender of FIG. 14 .

FIG. 16 depicts a perspective view of the pedicle screw extender of FIG.14 partially engaged with a head of a pedicle screw.

FIG. 17 depicts a perspective view of a portion of the pedicle screwextender of FIG. 14 engaged with a head of a pedicle screw.

FIG. 18 depicts a schematic perspective view of the pedicle screwextender of FIG. 14 engaged with a head of a pedicle screw.

FIG. 19 depicts a perspective view of a portion of the pedicle screwextender of FIG. 14 .

FIG. 20 depicts a perspective view of a portion of the pedicle screwextender of FIG. 14 .

FIG. 21 depicts a perspective view of a portion of the pedicle screwextender of FIG. 14 .

FIG. 22 depicts a perspective view of one example of a pedicle screwextender of the present disclosure.

FIG. 23 depicts a perspective view of one example of a pedicle screwextender of the present disclosure.

FIG. 24 depicts a perspective view of one example of a pedicle screwextender of the present disclosure.

FIG. 25 depicts a perspective view of one example of a pedicle screwextender of the present disclosure.

DETAILED DESCRIPTION

Various non-limiting embodiments of the present disclosure will now bedescribed to provide an overall understanding of the principles of thestructure, function, and use of the apparatuses, systems, methods, andprocesses disclosed herein. One or more examples of these non-limitingembodiments are illustrated in the accompanying drawings. Those ofordinary skill in the art will understand that systems and methodsspecifically described herein and illustrated in the accompanyingdrawings are non-limiting embodiments. The features illustrated ordescribed in connection with one non-limiting embodiment may be combinedwith the features of other non-limiting embodiments. Such modificationsand variations are intended to be included within the scope of thepresent disclosure.

Reference throughout the specification to “various embodiments,” “someembodiments,” “one embodiment,” “some example embodiments,” “one exampleembodiment,” or “an embodiment” means that a particular feature,structure, or characteristic described in connection with any embodimentis included in at least one embodiment. Thus, appearances of the phrases“in various embodiments,” “in some embodiments,” “in one embodiment,”“some example embodiments,” “one example embodiment, or “in anembodiment” in places throughout the specification are not necessarilyall referring to the same embodiment. Furthermore, the particularfeatures, structures or characteristics may be combined in any suitablemanner in one or more embodiments.

The examples discussed herein are examples only and are provided toassist in the explanation of the apparatuses, devices, systems andmethods described herein. None of the features or components shown inthe drawings or discussed below should be taken as mandatory for anyspecific implementation of any of these the apparatuses, devices,systems or methods unless specifically designated as mandatory. For easeof reading and clarity, certain components, modules, or methods may bedescribed solely in connection with a specific figure. Any failure tospecifically describe a combination or sub-combination of componentsshould not be understood as an indication that any combination orsub-combination is not possible. Also, for any methods described,regardless of whether the method is described in conjunction with a flowdiagram, it should be understood that unless otherwise specified orrequired by context, any explicit or implicit ordering of stepsperformed in the execution of a method does not imply that those stepsmust be performed in the order presented but instead may be performed ina different order or in parallel.

Described herein are example embodiments of bone anchors (e.g., hooks,screws, etc.) useful for orthopedic procedures such as, for example,spinal fixation. In the illustrated embodiments a pedicle screw isdisclosed to teach the features of a bone anchor and how the one or moreembodiments of tulip head extenders engage and/or work with suchillustrative pedicle screws, but the disclosure is not to be limitedonly to pedicle screws, nor are the tulip head extenders limited toengaging and/or working with only pedicle screws.

Referring to FIG. 1 , a representative pedicle screw 100 is shown.Pedicle screw 100 can be any of known pedicle screws with any of knownbeneficial features for installation and use in processes and systemssuch as, for example, of spinal fixation. For the purposes of thepresent disclosure, the pedicle screw is described as including a screwshank 102, a neck 104, a head 106, which is often referred to as a tuliphead 106. The tulip head 106 can include first and second tulip arms 112opposed from each other. First and second tulip arms form a channel 107.First and second tulip arms 112 can extend from a curved lower surface(e.g., rod seat 108) defining the substantially U-shaped interiorchannel 107. The channel 107 can be constructed to receive a spinalfixation rod (e.g., 122) and can include a channel axis. The channelaxis can correspond to, and be coincident with, a longitudinal axis of aspinal fixation rod when it is reduced into the channel 107.

The shank can have an inner diameter and an outer diameter, the innerdiameter and outer diameter each being determined by the size of thescrew and the depth of threads 110 on shank 102. The thread depth,pitch, and other dimensional features can be predetermined based on therequirements of the pedicle screw, as is known in the art. That is, theproportions of the pedicle screw depicted are for illustrative purposesonly and variations in the length, shape, and/or configuration of suchpedicle screw may vary such as, for example, the shape and size of thehead, the length of the shank, diameter of the screw, thread pitch,thread length, number of thread leads, shank induced compression and thelike may be varied without departing from the scope of the disclosure.

Other components and features of a pedicle screw may be included thataid in its insertion into a bone and its use. For example, as depictedin the partial cross-sectional view of tulip head 106 in FIG. 2 , tuliphead 106 may include features for compatible operation with driving tool(not shown) and a rod reduction device (not shown). As a specificexample, a rod reduction device, as is known in the art, may be used toengage with tulip head 106 to urge, or reduce, a spinal fixation rodinto the channel 107 and toward the rod seat 108, manipulate one or morevertebrae, and/or insert a set screw for temporary or stationaryfixation of the spinal rod into the pedicle screw tulip head 106. Forthis reason, tulip head 106 can have various features, such as graspingtabs 112 and/or pockets 114, for connectivity and operation of thedriving tool, rod reducing tool, and/or other instruments, and internalthreads 116 for receiving a set screw or other implants and/orinstruments.

Referring now to FIG. 3 , there is shown a pedicle screw 100 screwedinto a bone 118, the surface of which is representatively depicted bythe dashed line 120. Bone 118 can be a pedicle, and pedicle screw 100can be driven into the pedicle until the neck 104 is adjacent the bone118. In an embodiment, the pedicle can be undertapped for theappropriate screw size. After the pedicle is undertapped a flexiblefeeler probe may be used to verify presence of threads in the tappedhole. To measure the length of the hole, a feeler probe is advanced tothe floor of the hole and a hemostat is clamped to the feeler probe atthe point where it exits the pedicle. The appropriate screw diameter andlength may subsequently be selected based on both preoperativemeasurement and intraoperative observation. The same technique can berepeated for any remaining pedicles that need to be inserted and/orinstrumented.

A rod reduction tool can be applied over the tulip head 106 of thescrew. In an embodiment, fingers of the rod reduction device can engagethe pockets 114 of the pedicle screw tulip head 106. The rod 122 canthen be reduced by the rod reduction device to set in rod seat 108. Aset screw driver can then be used to introduce a set screw 124. The setscrew can be passed through the rod reduction device and rotated untilit bottoms out, securing rod 122 into the tulip head 106.

As depicted in FIG. 3 , once rod 122 is reduced into tulip head 106 andset screw 124 is set, the distance D1 from bone surface 120 and theaxial center 126 of rod 122 is immovably fixed. As illustrated, thedistance D1 is shown as extending to the axial center of the rod 122,but for description purposes the dimensions D1, as well as D2 and D3described below, can be measured to the top or bottom of the rod withoutdeparting from the scope of the disclosure.

Referring to FIG. 4 there is shown an embodiment of a tulip headextender 10 that, when engaged to and/or installed into tulip head 106,can facilitate the repositioning of rod 122 with respect to bone surface120 from a distance D1 an additional distance D2, for a total distanceD3. As can be understood, extender 10 permits the vertical repositioningof rod 122 from an original position shown as 122′ without disturbingpedicle screw 100. The distance D2 can be predetermined by varying thegeometry of extender 10, as will be more fully understood in light ofthe description below.

An embodiment of tulip head extender 10 as shown in FIG. 4 is depictedin more detail in FIG. 5 . In the illustrated embodiments, terms such as“vertical,” “upper,” “lower” “upwardly,” and “downwardly” are used inrelation to the extender 10 in the orientation shown in the FIGS, andcorresponding to the orientation generally experienced in use of pediclescrews and related instrumentation. Extender 10 can have an upper bodyportion 12 joined to a lower body portion 14. The upper body portion 12can be integrally formed with lower body portion 14, such as bymachining from a blank, injection molding, etc., or the two parts can bemanufactured separately and joined by adhesive, welding, press fit, orthe like. Upper body portion 12 can have a first extender arm 16 and asecond extender arm 18 opposed to the first extender arm. First extenderarm 16 and second extender arm 18 can extend from a curved lower surfacedefining a substantially U-shaped interior channel 22 that can have afirst channel axis 24. The first channel axis 24 can correspond to, andbe coincident with, a longitudinal axis of a rod 122 when reduced intoextender 10. The first interior threads 20 of first and second extenderarms can be complementary to receive an appropriately sized set screw(not shown). As can be understood from the description above, first andsecond extender arms 16 and 18, first interior threads 20, and interiorchannel 22 correspond to the same or similar functional features of atulip head, such as tulip head 106 of pedicle screw 100. As can befurther understood, the features of the upper portion 12 of extender 10can include any features 51 desired or required on illustrative boneanchors such as, for example, pockets, tabs, indentations, and openings,to engage with a variety of instruments such as, for example, aparticular rod reducing tool, and, as such, facilitate rod reduction byknown techniques, albeit reducing the rod a shorter distance than whatwould have been required to reduce it to the original rod seat 108(e.g., FIGS. 2 and 3 ).

Lower portion 14 can extend downwardly from the upper portion 12, andcan have a portion sized to fit into the channel 107 and seat on the rodsurface 108 of tulip head 106 of pedicle screw 100. That is, lowerportion 14 can be a substantially U-shaped protrusion, joined to upperportion 12 by generally parallel spaced apart first and second U-shapedsides, 26 and 28 (side 28 on the side not seen in FIG. 5 ). First andsecond U-shaped sides can be substantially identical in size and shapeand have a protrusion width PW having a dimension sized according to thechannel width of the tulip head 106 of the pedicle screw 100. First andsecond U-shaped sides can be spaced apart a distance defining aprotrusion depth PD, the protrusion depth PD being a dimension suitablefor stable securement to the tulip head 106 of pedicle screw 100, andcan be predetermined based on the sizing and requirements of relatedinstrumentation. First and second sides 26 and 28 need not be U-shaped,but can have any shape constrained only in that the lower portion 14 beable to be insertable into and seat with the tulip head 106 of a pediclescrew 100 (e.g., channel 107 and seat 108). Thus, first and second sides26 and 28 can have rectangular shape, for example, and remainfunctionally capable of being seated into the tulip head 106 of pediclescrew 100.

The extender 10 can have first and second surfaces 30 and 32, which canbe generally horizontally oriented portions of the lower surface ofupper portion 12, and which can abut the top surface of tulip head 106of pedicle screw 100 when the extender 10 is set into place. Although insome embodiments, the extender 10 may not have first and second surfaces30 and 32 or such surface may not be generally horizontally oriented. Insome embodiments, first and second sides 26 and 28 can extend a distanceL1 below and generally perpendicular to first and second surfaces 30 and32 to the bottom of the U-shaped sides. Distance L1 can be substantiallyequal to the depth of the channel having the rod seat 108 of tulip head106. Curved lower surface 22 of upper portion 12 of extender 10 can be adistance L2 measured from the bottom of the U-shaped first and secondsides 26 and 28. Distance L2 can be greater than distance L1, and can bepredetermined by design of extender 10 based on the desired distance D3,as shown in FIG. 4 .

Lower portion 14 can have an open interior portion 34 defined betweenfirst and second U-shaped sides 26 and 28, and in which can be disposedan extender set screw 36. Open interior portion 34 can have open accessthrough a pair of opposing windows 38, 40 (window 40 on the side notseen in FIG. 5 ) through which the extender set screw 36 may be insertedinto and then in its position therein, threads of extender set screw 36can extend radially outwardly from windows 38, 40. That is, the outsidethread diameter of set screw 36 can be greater than the protrusion widthPW. This allows the threads of the extender set screw 36 to threadinglyengage the inner threads 116 of the first and second tulip arms 112 whenthe lower portion 14 is inserted into the tulip channel 107, engagingand/or connecting the extender 10 to the tulip head 100. As can beunderstood from the description herein, extender set screw 36 servesfunctionally similar to the set screw 124 shown in FIG. 3 to set,however, the extender 10 into the tulip head 106 of pedicle screw 100 asshown in FIG. 4 rather than to set the rod 122 into the tulip head asshown in FIG. 3 .

An access opening 42 in upper portion 12 can extend downwardly throughthe upper portion 12 in a direction generally perpendicular to firstchannel axis 24. Access opening 42 provides access to the top ofextender set screw 36. Extender set screw 36 can have on its top surfacea driving portion which can engage with a driver to permit rotation ofextender set screw 36 such that its external threads engage the internalthreads 116 of tulip head 106, driving the extender set screw down intothe tulip channel 107 and connecting the extender 10 to the pediclescrew 100.

Thus, according to the description above with reference to FIGS. 4 and 5, it can be understood that extender 10 can be attached to the tuliphead 106 of a pedicle screw 100 to increase the distance from bonesurface 120 from a distance having a dimension D1 to a distance having adimension D3, which is greater than D1. As described, the lower portion14 of extender 10 can be positioned between the tulip arms 112 and thethreads of extender set screw 36 can engage the interior threads 116 oftulip head 106. Extender set screw 36 can be rotated by a driverextending through access opening 42 of extender 10 to connect and/orsecure extender 10 to tulip head 106. Once extender is secured to tuliphead 106 by tightening extender set screw 36, first and second extenderarms 16 and 18, first interior threads 20, and interior channel 22effectively define a second tulip head into which a spinal fixation rod122 can be reduced. The distance having a dimension D2 above which a rodwould be reduced into tulip head 106 of pedicle screw 100 can bepredetermined by adjusting by design the various described componentsand dimensions. Thus, in operation, a doctor or other operator canchoose an extender 10 having dimensions, including dimensions L1 and L2for the particular pedicle screw 100 being utilized, and the distance D3that the rod is suspended or positioned over the bone and/or thedistance the rod is suspended and/or positioned over the installedpedicle screw. As can be understood, therefore, extender 10 providesgreat flexibility to increase the rod reduction height relative to bonesurface 120 for a fixed position of a tulip head 106 of a fixed pediclescrew 100.

An embodiment of tulip head extender 10 similar to that shown in FIG. 4is depicted in more detail in FIG. 6-12 . FIG. 6 illustrates in aperspective view that extender 10 can comprise a one-piece molded body,forged and/or machined body, and, as shown in FIG. 7 , a set screw canbe disposed internally to the extender 10 body. As an example, extender10 can be molded of any polymer material, and can be injection molded.As described above, extender 10 can have an upper body portion 12 joinedto a lower body portion 14. Upper body portion 12 can have two opposingextender arms 16, 18, each including a portion of interior threads 20.First arm 16 and second arm 18 can extend from a curved lower surfacedefining a substantially U-shaped interior channel 22 that can have afirst channel axis 24. The first channel axis 24 can correspond to, andbe coincident with, a longitudinal axis of a rod 122 when reduced intoextender 10 (not shown). The first interior threads 20 of first andsecond arms can be complementary to receive an appropriately sized setscrew 36, as shown in FIGS. 7-12 . An access opening 42 in upper portion12 can extend downwardly through the upper portion 12 in a directiongenerally perpendicular to first channel axis 24. Access opening 42provides access to the top of extender set screw 36. Extender set screw36 can have on its top surface a driving portion 44 which can be a maleor female socket that can engage with a driver to drive rotation ofextender set screw 36. In FIG. 8 , a representative female socketdriving portion 44 having a generally star-shaped geometry isillustrated.

As can be understood from the description above, first and secondextender arms 16 and 18, first interior threads 20, and interior channel22 correspond to the same or similar functional features of a tuliphead, such as tulip head 106 of pedicle screw 100. As can be furtherunderstood, the features of the upper portion 12 of extender 10 caninclude any features 51 desired or required on illustrative bone anchorssuch as, for example, pockets, tabs, indentations, and openings, toengage with a variety of instruments such as, for example, a particularrod reducing tool, and, as such, facilitate rod reduction by knowntechniques, albeit reducing the rod a shorter distance than what wouldhave been required to reduce it to the original rod seat 108.

As shown in the side elevation views of FIGS. 9 and 10 , lower portion14 can extend downwardly from the upper portion 12, and can have aportion sized to fit into the channel 107 and seat on the rod surface108 of tulip head 106 of pedicle screw 100. First and second U-shapedsides can be substantially identical in size and shape and have aprotrusion width PW having a dimension sized according to the channelwidth of the tulip head 106 of the pedicle screw 100. First and secondU-shaped sides can be spaced apart a distance defining a protrusiondepth PD, the protrusion depth PD being a dimension suitable for stablesecurement to the tulip head 106 of pedicle screw 100, and can bepredetermined based on the sizing and requirements of relatedinstrumentation. First and second sides 26 and 28 need not be U-shaped,but can have any shape constrained only in that the lower portion 14 beable to be insertable into and seat with the tulip head 106 of a pediclescrew 100. Thus, first and second sides 26 and 28 can have rectangularshape, for example, and remain functionally capable of being seated intothe tulip head 106 of pedicle screw 100.

The extender 10 can have first and second surfaces 30 and 32, which canbe generally horizontally oriented portions of the lower surface ofupper portion 12, and which can abut the top surface of tulip head 106of pedicle screw 100 when the extender 10 is set into place. First andsecond sides 26 and 28 can extend a distance L1 below and generallyperpendicular to first and second surfaces 30 and 32 to the bottom ofthe U-shaped sides. As discussed above with respect to FIG. 5 , but forconciseness not shown in FIGS. 9-12 , a distance L1 can be substantiallyequal to the depth of the channel having the rod seat 108 of tulip head106. Curved lower surface 22 of upper portion 12 of extender 10 can be adistance L2 measured from the bottom of the U-shaped first and secondsides 26 and 28. Distance L2 can be greater than distance L1, and can bepredetermined by design of extender 10 based on the desired distance D3,as shown in FIG. 4 .

Lower portion 14 can have an open interior portion 34 defined betweenfirst and second U-shaped sides 26 and 28, and in which can be disposedan extender set screw 36. Open interior portion 34 can have open accessthrough a pair of opposing windows 38, 40 (window 40 on the side notseen in FIG. 5 ) through which the extender set screw 36 may be insertedinto and then, when in its position therein, threads of extender setscrew 36 can extend radially outwardly from the windows 38, 40. That is,the outside thread diameter of set screw 36 can be greater than theprotrusion width PW. This allows the threads of the extender set screw36 to threadingly engage the inner threads 116 of the first and secondtulip arms 112 when the lower portion 14 is inserted into the tulipchannel 107, engaging and/or connecting the extender 10 to the tuliphead 100. As can be understood from the description herein, extender setscrew 36 serves functionally as the set screw 124 shown in FIG. 3 toset, however, the extender 10 into the tulip head 106 of pedicle screw100 as shown in FIG. 4 rather than to set the rod 122 into the tuliphead as shown in FIG. 3 .

FIGS. 11 and 12 are partial cross-sectional views of FIGS. 9 and 10respectively and are provided for descriptive detail with respect to thevarious structure and features described above. For conciseness all thedescriptive detail is not repeated, but the FIGS. can be understood bythe description above and the various numbered call-outs of FIGS. 11 and12 .

Referring now to FIG. 13 there is shown another example embodiment of atulip head extender 10 that, when installed onto tulip head 106, canfacilitate the repositioning of rod 122 with respect to bone surface 120from a distance having a dimension D1 to an additional distance having adimension D2, for a total distance having a dimension D3. As can beunderstood, extender 10 permits the vertical repositioning of rod 122from an original position shown as 122 without disturbing the originalposition of pedicle screw 100. The dimension D2 can be predetermined byvarying the geometry of extender 10, as will be more fully understood inlight of the description below.

The example embodiment of extender 10 shown in FIG. 13 can have a rodsecuring body portion 50 having two opposing arms 16, 18, each includinga portion of first interior threads 20. First and second opposing armscan extend upwardly from a curved lower surface defining a substantiallyU-shaped interior channel 22 that can have a first channel axis 24.First arm 16 and second arm 18 can be described as being opposed acrossa first imaginary plane P1 parallel to first channel axis 24 andbisecting the securing body portion 50, and, when in use also bisectingtulip head 106 in a like manner.

Extender 10 can have generally parallel spaced apart first and secondU-shaped sides, 26 and 28. First and second U-shaped sides can besubstantially identical in size and shape and have a separation width SWhaving a dimension sized according to the size of the tulip head 106 ofthe pedicle screw 100 over which extender 10 can be lowered and set,somewhat in saddle fashion. First and second sides 26 and 28 (oppositeside of side 26) can each have an externally facing surface that isgenerally planar and perpendicular to the imaginary plane P1. First andsecond sides 26 and 28 need not be U-shaped, but can have any shapeconstrained only by general design and function considerations. Thus,first and second sides 26 and 28 can have rectangular shape, forexample, and remain functionally capable of being saddled over the tuliphead 106 of pedicle screw 100.

The first interior threads 20 of first and second arms can becomplementary to receive an appropriately sized set screw (not shown).As can be understood from the description above, first and second arms16 and 18, first interior threads 20, and interior channel 22 correspondto the same or similar functional features of a tulip head, such astulip head 106 of pedicle screw 100. As can be further understood, thefeatures of the rod securing body 50 of extender 10 can include anyfeatures 51 desired or required on illustrative bone anchors such as,for example, pockets, tabs, indentations, and openings, to engage with avariety of instruments such as, for example, a particular rod reducingtool, and, as such, facilitate rod reduction as known, albeit reducingthe rod a shorter distance than what would have been required to reduceit to the original rod seat as shown in FIG. 13 .

Rod securing body 50 can be secured to tulip head 106 in any suitablemanner, for example, by securing to mating engagement portions. Forexample, rod securing body 50 can have tabs that can engage pockets 114of tulip head 106. In an embodiment, tabs of rod securing body can beflexibly resilient, and can be separated apart while rod securing bodyis pressed down onto tulip head 106 and snapped inwardly when tabsengage pockets 114. In another embodiment, a first set screw can be,optionally, threadingly engaged to the internal extender threads 20 andthreaded through the extender until it threadingly engages the internalthreads 116 of tulip head 106. The first set screw can be threaded intothe tulip head to the desired position to secure and/or hold a spinalfixation rod 122 in position within the extender channel between thecurved surface of the channel 22 and the first set screw, and at thesame time, to hold and/or secure the extender 50 to tulip head 106.Optionally, a second extender set screw (e.g., extender set screw 36)can be threadingly engaged to the internal threads 20 of the extender 50to provided additional hold and/or securement of the spinal fixation rod122 to the extender. Rod securing body 50 can have generally flat,inwardly extending surfaces 52 that can abut the top surface of tuliphead 106 when rod securing body is positioned for receiving a rod.Interior channel 22 can have a lower surface a distance having adimension L3 above the lower surface of the extender 10. Inwardlyextending surfaces 52 can be disposed at a forth distance having adimension L4 above the lower surface of extender 10.

Once extender 10, as described with reference to FIG. 13 , is secured totulip head 106 by placing over the tulip head 106 in a saddle-likefashion, first and second arms 16 and 18, first interior threads 20, andinterior channel 22 effectively define a second tulip head into which arod 122 can be reduced. The dimension D2 above which a rod would bereduced into tulip head 106 of pedicle screw 100 can be predetermined byadjusting by design the various described components and dimensions.Thus, in operation, a doctor or other operator can choose an extender 10having dimensions, including dimensions L3 and L4 for the particularpedicle screw 100 being utilized, and the desired dimension D3 forelevated rod reduction. As can be understood, therefore, extender 10provides great flexibility to increase the rod reduction height relativeto bone surface 120 for a fixed position of a tulip head 106 of a fixedpedicle screw 100.

Thus, according to the description above with reference to FIG. 13 , itcan be understood that in an embodiment extender 10 can be attached tothe tulip head 106 of a pedicle screw 100 to increase the distance frombone surface 120 from a first distance having a dimension D1 to a thirddistance having a dimension D3, which is greater than D1. Once extender10 is secured to tulip head 106, first and second arms 16 and 18, firstinterior threads 20, and interior channel 22 effectively define a secondtulip head into which a rod 122 can be reduced. The second dimension D2above which a rod would be reduced into tulip head 106 of pedicle screw100 can be predetermined by adjusting by design the various describedcomponents and dimensions. Thus, in operation, a doctor or otheroperator, can choose an extender 10 having dimensions, includingdimensions L3 and L4 for the particular pedicle screw 100 beingutilized, and the desired dimension D3 for rod reduction. As can beunderstood, therefore, extender 10 provides great flexibility toincrease the rod reduction height relative to bone surface 120 for afixed position of a tulip head 106 of a fixed pedicle screw 100.

Referring now to FIGS. 14-21 , there is shown another example embodimentof a tulip head extender 10 that, when installed onto tulip head 106,can facilitate the repositioning of rod 122 with respect to bone surface120 from a distance having a dimension D1 to an additional distancehaving a dimension D2, for a total distance having a dimension D3 (asdepicted in FIG. 18 ). As can be understood by the description herein,extender 10 permits the vertical repositioning of rod 122 withoutdisturbing the original position of a pedicle screw 100. The dimensionD2 can be predetermined by varying the geometry of extender 10, as willbe more fully understood in light of the description below.

As shown in the embodiment of FIGS. 14-21 , extender 10 can comprisethree discrete parts that together serve to fix a spinal fixation rod122 on a pedicle screw head 106 at an elevated distance from the bone inwhich pedicle screw is affixed. FIG. 14 shows a perspective view of anextender 10 comprising three discrete parts, namely a saddle 70, a cap72, and a set screw 74, which can be in all respects identical to theset screw 36 described above. All three parts can be made of anysuitable material, including injection molded polymer materials.

Referring to FIG. 15 , saddle 70 can be disposed within the tulip head106 of a pedicle screw (i.e., within channel 107). Saddle 70 can be slidinto the tulip head 106 and can rest on the rod seat 108. Saddle 70 canhave on the upper, rod-facing side a surface that defines an elevatedrod seat 108. Saddle 70 is described in more detail with respect to FIG.19 .

Referring to FIG. 16 , a cap 72 can be snapped onto tulip head 106, forexample, by utilizing tabs 74 that can clip onto pockets 114 of tuliphead 106. One tab 74 can be hooked into one pocket 114, and the cap 72can be rotated and pressed such that the other tab 74 can be hooked, orsnapped, into the opposite pocket 114. In other words, the tabs 74 canbe fabricated from a material and/or by design such that one or more ofthe tabs 74 can flex outward to go over and/or about the outercircumference of the tulip head and then snap back into its normalposition into one or more of the pockets 114. Once snapped onto tuliphead 106, cap 72 is secured onto tulip head 106 as shown in FIG. 17 . Aspinal fixation rod 122 may be positioned into the saddle prior to thecap 73 being positioned upon and secured to the tulip head, thuspositioning the rod 122 between the saddle and the cap. Once positioned,the set screw 36 may be threadingly engaged to the tulip head 106 and/orthe cap 72. Alternatively, once the saddle 70 and cap 72 are positionedonto the tulip head 106, a spinal fixation rod 122 can be positionedbetween them, and secured to the tulip head 106 by inserting andsecuring a set screw 36, as shown in FIG. 14 (i.e., threadingly engagedto the tulip head 106 and/or the cap 72).

A schematic perspective view of the extender 10 shown in FIGS. 14-17 isdepicted in FIG. 18 . Once extender 10, as described with reference toFIGS. 14-16 , is secured to a pedicle screw head 106 having a rod seat108 at an elevation D1 above the bone surface, the elevated rod seat108′ can be elevated above the rod seat 108 by a distance having adimension D2 which can be predetermined by adjusting by design thevarious described components and dimensions. Thus, in operation, adoctor or other operator can choose an saddle 70 having dimensions,specifically a saddle height dimension as discussed below, for theparticular pedicle screw 100 being utilized, and the desired dimensionD3 for elevated rod reduction. As can be understood, therefore, extender10 provides great flexibility to increase the rod reduction heightrelative to bone surface 120 for a fixed position of a tulip head 106 ofa fixed pedicle screw 100.

FIG. 19 shows a perspective view of a representative saddle 70 used inthe extender 10 shown in FIGS. 14-17 . In particular, saddle 70 can begenerally H-shaped having a longitudinally extending curved surface 80that serves as the elevated rod seat 108. A pair of opposing guide tabs82 can be disposed at each longitudinal end of the curved surface 80.The size and spacing of tabs 82 can be predetermined according to thedimensions of the tulip head 106 onto which saddle 70 is placed. Saddle70 can have a thickness from a bottom surface to a top surface of theelevated rod seat 108′ SH, as shown in FIG. 19 . The saddle height SHcan be predetermined for the desired dimension D3 for elevated rodreduction.

Referring to FIG. 20 , there is shown a perspective view of cap 72. Cap72 can have two opposed tabs 74 that can have a general hook-shape suchthat a first tab 74′ with a hook feature 84′ that can engage with apocket 114 of tulip head 106, as illustrated above with respect to FIG.16 . A second tab 74″ with a second hook feature 84″ can be pressed downand snapped into a pocket 114 on the opposite side of a tulip head 106.A stress relief feature 86, which can include a slot 88 and/or a slit 90on the upper portion of cap 72, from which tabs 74 extend downwardly,can be included on cap 72. Cap 72 can also have indented features, suchas a pocket 114′ on opposite side surfaces of cap 72. Pockets 114′provide a connection for connectivity and operation of known instrumentssuch as, for example, a driving tool and/or rod reducing tool.

Referring to FIG. 21 there is illustrated in perspective a set screw 36having external threads that engage with the internal threads of thetulip head of a pedicle screw, or other internal threads of extenders 10as described herein. Set screw 36 can be turned by a tool that can beinserted into a driving portion 44 that can be a socket into which adriving tool can be inserted and securely rotated to rotate set screw36.

Referring to FIGS. 22-25 there is illustrated further exampleembodiments of extenders 10 that facilitate positioning of a spinalfixation rod 122 both laterally and upwardly with respect to a fixedpedicle screw 100 tulip head 106. FIGS. 22 and 23 illustrate an extender10 that facilitates laterally elevated in-line positioning of rod 22.FIGS. 24 and 25 illustrate an extender 10 that facilitates laterallyelevated cross positioning of rod 22.

As shown in FIG. 22 , an extender 10 is illustrated that permits a rod122 to be reduced to an elevation greater than the elevation dictated bya pedicle screw 100 fixed in a bone 118. As shown in FIGS. 22 and 23 ,extender 10 can be a unitary construction, and can have a mounting bar60 that can be cylindrical, and can be sized to fit and be secured intotulip head 106 of fixed pedicle screw 100. Securement of mounting bar 60into tulip head 106 can be, for example, by a set screw (not shown)tightened into internal threads 116 of tulip head 106. Mounting bar canhave any cross section, but can be a cylindrical shape having a centralaxis 62.

Extender 10 as illustrated in FIGS. 22 and 23 can have disposed on anupturned end of mounting bar 60 an extender tulip head 64 that can be insize, shape, and function, substantially identical to tulip head 106 ofpedicle screw 100. In general, extender tulip head 64 can have twoopposing arms 16, 18, each including a portion of interior threads 20.First arm 16 and second arm 18 can extend from a curved lower surfacedefining a substantially U-shaped interior channel 22 that can have afirst channel axis 24 can be coincident with the central axis of rod 122and can be generally parallel to and in the same plane as central axis62. The first interior threads 20 of first and second arms can becomplementary to receive an appropriately sized set screw (not shown).As can be understood from the description herein, first and second arms16 and 18, first interior threads 20, and interior channel 22 correspondto the functional features of a tulip head, such as tulip head 106 ofpedicle screw 100. As can be further understood, the features of theextender tulip head 64 can include any features required (but not shown)to engage with a particular rod reducing tool, and, as such, facilitaterod reduction as known, albeit reducing the rod to distance having adimension D3 rather than distance a lesser dimension D1, as shown inFIG. 22 .

In the embodiment illustrated in FIGS. 22 and 23 , the first channelaxis 24 and the central rod axis 62 of mounting bar 60 are parallel andin the same plane, and thus a fixation rod 122 reduced into extendertulip head 64 is “in line” with the mounting bar 60, and thus in linedirectionally with where the fixation rod 122 would have been mounted inthe tulip head 106 of pedicle screw 100.

As can be understood with respect to FIGS. 24 and 25 , an example ofanother extender 10 that facilitates fixation of a rod 122 bothlaterally and upwardly with respect to a fixed pedicle screw 100 tuliphead 106 is shown. The extender of FIGS. 24 and 25 is identical in mostrespects to that shown in FIGS. 22 and 23 , with the material differencebeing that extender tulip head 64 has a different orientation, such thata rod 122 reduced into it would not be “in line” with mounting bar, butbe at some angle to it, albeit remaining elevated by distance having adimension D2 with respect to the mounting bar. In an embodiment, firstarm 16 and second arm 18 can extend from a curved lower surface defininga substantially U-shaped interior channel 22 that can have a firstchannel axis 24 that is generally parallel to but in different planethan central axis 62. In an embodiment, first channel axis 24 can be ina plane that is substantially perpendicular to a plane in which centralaxis 62 resides. However, in general, as described above, the firstinterior threads 20 of first and second arms can be complementary toreceive an appropriately sized set screw (not shown). As can beunderstood from the description herein, first and second arms 16 and 18,first interior threads 20, and interior channel 22 correspond to thefunctional features of a tulip head, such as tulip head 106 of pediclescrew 100. As can be further understood, the features of the extendertulip head 64 can include any features required (but not shown) toengage with a particular rod reducing tool, and, as such, facilitate rodreduction as known, albeit reducing the rod to distance to a dimensionD3 rather than to a distance having a dimension D1 which is less thanD3, as shown in FIG. 24 .

As depicted in FIG. 25 dimension D3 can be varied depending on thedimensions of extender 10, specifically the distance which can bemeasured from mounting bar axis 62 and a lower surface 66 of head 64,which distance can be the dimension L5. More particularly, dimension D3can be varied depending on the distance which can be measured frommounting bar axis 62 and a rod seating surface 22 of head 64, whichdistance can be the dimension L6.

The extenders 10 disclosed herein can provide a benefit in theinstallation and use of spinal fixation rods. In general, a method ofuse of extender 10 includes affixing an extender 10 to an installedtulip head of a pedicle screw, thereby extending, with respect to thepedicle bone, the distance from the pedicle bone that a spinal fixationrod will seat. In general, an extender 10 can safely span a gap betweenthe distance from the pedicle bone of the rod seat 108 of a tulip head106 of an installed pedicle screw and the distance that is determined assafely seating a spinal fixation rod.

For extenders 10 of the type illustrated and disclosed, for example,with respect to FIGS. 4-12 , the extender 10 can have a set screw, e.g.,set screw 36 of FIGS. 8 and 10 , threaded through the extender 10 andthreaded onto the internal threads 116 of the tulip head 106, therebysecuring the extender 10 to the tulip head 106. After the extender 10 issecured to the tulip head 106, a spinal fixation rod 122 can be seatedin the extender and secured, e.g., with another set screw threaded intofirst interior threads 20 as depicted in FIG. 5 .

For extenders 10 of the type illustrated and disclosed, for example,with respect to FIGS. 14-21 , the saddle 70 provides for the extendeddistance with respect to the pedicle bone, i.e., the distance from thepedicle bone that a spinal fixation rod will seat. The cap 72 can thenbe snapped over the top of the tulip head into the slots on the sidethereof. A set screw can then be tightened down, thereby pulling the cap72 upward on the slots locking it in place.

The apparatuses and methods disclosed herein may be used and/or appliedin any regions of the spine such as for example, cervical, thoracic,lumbar, sacral, or coccygeal regions. In some examples, the apparatusesand methods disclosed herein may be used and/or applied in severelycurved regions of the spine, for example, the lumbar region of thespine, i.e., for a spinal fixation rod secured to any or all of L1-L5vertebrae. The lumbar region can often exhibit extreme lumbar curveswhere a spinal fixation rod would necessarily need to be significantlydeformed, thus creating large stresses in the rod and/or the pediclescrew and/or the bone, as well as possible fracture of either the rod,screw, or bone. Extenders 10 can also be used in other vertebrae,including, for example, in the upper thoracic region for severekyphosis, i.e., for a spinal fixation rod secured to any or all ofT1-T12 vertebrae, where there can also be significantly rod stressespresent. Extenders 10 can also be used in vertebrae of the cervicalregion, i.e., for a spinal fixation rod secured to any or all of C1-C7.

Representative embodiments of the present disclosure described above canbe described as follows.

In an embodiment a method of use can include the following steps:inserting a pedicle screw having a tulip head in a vertebral bone to apredetermined distance; placing a spinal fixation rod in close proximityto, e.g., hovering over, the tulip head of the inserted pedicle screw;determining that the distance the spinal fixation rod must be reducedinto the tulip head is too great to allow for safe reduction of thespinal fixation rod into the tulip head, e.g., because of the likelihoodof excessive stress on the pedicle bone; securing an extender 10 to thetulip head of the pedicle screw; seating the spinal fixation rod intothe extender 10; and securing the spinal fixation rod into the extender10.

A method of use for extenders as described above can be described as amethod for securing a spinal fixation rod to a pedicle bone, the methodincluding the following steps: providing a tulip head of a pediclescrew; providing a spinal fixation rod; securing an extender 10 to thetulip head of the pedicle screw; seating the spinal fixation rod intothe extender 10; and securing the spinal fixation rod into the extender10.

A method of use for extenders as described above can be described as amethod for securing a spinal fixation rod to a pedicle bone, the methodincluding the following steps: providing a tulip head of a pedicle screwscrewed into a pedicle bone; providing a spinal fixation rod; securingan extender 10 to the tulip head of the pedicle screw; seating thespinal fixation rod into the extender 10; and securing the spinalfixation rod into the extender 10.

A method of use for extenders as described above can be described as amethod for securing a spinal fixation rod to a pedicle bone, the methodincluding the following steps: providing a plurality of pedicle screwseach comprising a tulip head, and each screwed into a respective pediclebone; securing at least one extender 10 to the tulip head of at leastone of the tulip heads of at least one of the pedicle screws; bending aspinal fixation rod to an approximate shape; seating the bent spinalfixation rod into the at least one extender 10; and securing the spinalfixation rod into the at least one extender 10.

A method of use for extenders as described above can be described as amethod for securing a spinal fixation rod to a pedicle bone, the methodincluding the following steps: providing a plurality of pedicle screwseach comprising a tulip head, and each screwed into a respective pediclebone; recognizing that the required shape of an attached spinal fixationrod will exert excessive stress on the pedicle bone; securing at leastone extender 10 to the tulip head of at least one of the tulip heads ofat least one of the plurality of pedicle screws; bending a spinalfixation rod to an approximate shape; seating the bent spinal fixationrod into the at least one extender 10; and securing the spinal fixationrod into the at least one extender 10.

A method of use for extenders as described above can be described as amethod for securing a spinal fixation rod to a pedicle bone, the methodincluding the following steps: on the spine of a patient in need oforthopedic surgery, providing a plurality of pedicle screws eachcomprising a tulip head, and each screwed into a respective pedicle boneof the spine; recognizing that the required shape of an attached spinalfixation rod exerts excessive stress on the pedicle bone; securing atleast one extender 10 to at least one of the tulip heads of at least oneof the plurality of pedicle screws; bending a spinal fixation rod to anapproximate shape; seating the bent spinal fixation rod into the atleast one extender 10; and securing the spinal fixation rod into the atleast one extender 10.

A method of use for extenders as described above can be described as amethod for securing a spinal fixation rod to a pedicle bone, the methodincluding the following steps: on the lumbar region of a spine of apatient in need of orthopedic surgery, providing a plurality of pediclescrews each comprising a tulip head, and each screwed into a respectivepedicle bone of the spine selected from the group consisting of L1-L5;recognizing that the required shape of an attached spinal fixation rodexerts excessive stress on the pedicle bone or the pedicle screw;securing at least one extender 10 to at least one of the tulip heads ofat least one of the plurality of pedicle screws; bending a spinalfixation rod to an approximate shape; seating the bent spinal fixationrod into the at least one extender 10; and securing the spinal fixationrod into the at least one extender 10 in the lumbar region of the spine.

A method of use for extenders as described above can be described as amethod for securing a spinal fixation rod to a pedicle bone, the methodincluding the following steps: on the cervical region of a spine of apatient in need of orthopedic surgery, providing a plurality of pediclescrews each comprising a tulip head, and each screwed into a respectivepedicle bone of the spine selected from the group consisting of C1-C7;recognizing that the required shape of an attached spinal fixation rodexerts excessive stress on the pedicle bone or the pedicle screw;securing at least one extender 10 to at least one of the tulip heads ofat least one of the plurality of pedicle screws; bending a spinalfixation rod to an approximate shape; seating the bent spinal fixationrod into the at least one extender 10; and securing the spinal fixationrod into the at least one extender 10 in the cervical region of thespine.

A method of use for extenders as described above can be described as amethod for securing a spinal fixation rod to a pedicle bone, the methodincluding the following steps: on the thoracic region of a spine of apatient in need of orthopedic surgery, providing a plurality of pediclescrews each comprising a tulip head, and each screwed into a respectivepedicle bone of the spine selected from the group consisting of T1-T12;recognizing that the required shape of an attached spinal fixation rodexerts excessive stress on the pedicle bone or the pedicle screw;securing at least one extender 10 to at least one of the tulip heads ofat least one of the plurality of pedicle screws; bending a spinalfixation rod to an approximate shape; seating the bent spinal fixationrod into the at least one extender 10; and securing the spinal fixationrod into the at least one extender 10 in the thoracic region of thespine.

A method of use for extenders as described above can be described as amethod for repositioning and securing a spinal fixation rod to a pediclebone, the method including the following steps: on the lumbar region ofa spine of a patient in need of orthopedic surgery, providing aplurality of pedicle screws, each of the pedicle screws comprising atulip head, and each screwed into a respective pedicle bone of the spineselected from the group consisting of L1-L5; seating a spinal fixationrod into a portion of the tulip heads; recognizing that the requiredshape of the spinal fixation rod exerts, or will exert, excessive stresson the pedicle bone or the pedicle screw; removing the spinal fixationrod from the portion of the tulip heads; securing at least one extender10 to at least one of the tulip heads of at least one of the pluralityof pedicle screws; re-seating the spinal fixation rod to into theportion of tulip heads, including the at least one extender 10; andsecuring the spinal fixation rod into the tulip heads, including the atleast one extender 10, in the lumbar region of the spine. For each ofthe methods of use described above involving bending a spinal fixationrod prior to it being secured to an extender 10, the shape of therelevant portion of the spinal fixation rod 122, i.e., at and near theextender 10, can be characterized as wherein the radius of curvature ofthe bend in the spinal fixation rod is greater when used with anextender 10 relative to the radius of curvature necessary without theuse of an extender 10.

A method of use for extenders as described above can be described as amethod for repositioning and securing a spinal fixation rod to a pediclebone, the method including the following steps: on the cervical regionof a spine of a patient in need of orthopedic surgery, providing aplurality of pedicle screws, each of the pedicle screws comprising atulip head, and each screwed into a respective pedicle bone of the spineselected from the group consisting of C1-C7; seating a spinal fixationrod into a portion of the tulip heads; recognizing that the requiredshape of the spinal fixation rod exerts, or will exert, excessive stresson the pedicle bone or the pedicle screw; removing the spinal fixationrod from the portion of the tulip heads; securing at least one extender10 to at least one of the tulip heads of at least one of the pluralityof pedicle screws; re-seating the spinal fixation rod to into theportion of tulip heads, including the at least one extender 10; andsecuring the spinal fixation rod into the tulip heads, including the atleast one extender 10, in the cervical region of the spine. For each ofthe methods of use described above involving bending a spinal fixationrod prior to it being secured to an extender 10, the shape of therelevant portion of the spinal fixation rod 122, i.e., at and near theextender 10, can be characterized as wherein the radius of curvature ofthe bend in the spinal fixation rod is greater when used with anextender 10 relative to the radius of curvature necessary without theuse of an extender 10.

A method of use for extenders as described above can be described as amethod for repositioning and securing a spinal fixation rod to a pediclebone, the method including the following steps: on the thoracic regionof a spine of a patient in need of orthopedic surgery, providing aplurality of pedicle screws, each of the pedicle screws comprising atulip head, and each screwed into a respective pedicle bone of the spineselected from the group consisting of T1-T12; seating a spinal fixationrod into a portion of the tulip heads; recognizing that the requiredshape of the spinal fixation rod exerts, or will exert, excessive stresson the pedicle bone or the pedicle screw; removing the spinal fixationrod from the portion of the tulip heads; securing at least one extender10 to at least one of the tulip heads of at least one of the pluralityof pedicle screws; re-seating the spinal fixation rod to into theportion of tulip heads, including the at least one extender 10; andsecuring the spinal fixation rod into the tulip heads, including the atleast one extender 10, in the thoracic region of the spine. For each ofthe methods of use described above involving bending a spinal fixationrod prior to it being secured to an extender 10, the shape of therelevant portion of the spinal fixation rod 122, i.e., the at and nearthe extender 10, can be characterized as wherein the radius of curvatureof the bend in the spinal fixation rod is greater when used with anextender 10 relative to the radius of curvature necessary without theuse of an extender 10.

A method for securing a spinal fixation rod to a pedicle bone in thelumbar region of a spine of a patient in need of orthopedic surgery tomodify the curvature of the lumbar region, the method including thefollowing steps: providing a plurality of pedicle screws, at least oneof the pedicle screws comprising a tulip head, and each screwed into arespective pedicle of a vertebrae of the spine selected from the groupconsisting of L1-L5; providing a pedicle screw extender; reducing aspinal fixation rod at least partially into the tulip head; recognizingthat upon full reduction and securing of the spinal fixation rod intothe tulip head the spinal fixation rod will exert excessive stress onthe respective vertebra; removing the spinal fixation rod from the tuliphead; securing the pedicle screw extender to the tulip head; re-reducingthe spinal fixation rod into the pedicle screw extender; and securingthe spinal fixation rod into the pedicle screw extender.

A method for securing a spinal fixation rod to a pedicle bone of a spineof a patient in need of orthopedic surgery to modify the curvature ofthe spine, the method including the following steps: providing a tuliphead of a pedicle screw; providing a pedicle screw extender; providing aspinal fixation rod; securing the pedicle screw extender to the tuliphead of the pedicle screw; seating the spinal fixation rod into thepedicle screw extender; and securing the spinal fixation rod into thepedicle screw extender.

A method for securing a spinal fixation rod to a pedicle bone on thelumbar region of a spine of a patient in need of orthopedic surgery tomodify the curvature of the lumbar region, the method including thefollowing steps: providing a pedicle screw comprising a tulip head, thepedicle screw being screwed into a pedicle bone of a vertebrae of thespine selected from the group consisting of L1-L5; providing a pediclescrew extender; recognizing that the required shape of an attachedspinal fixation rod exerts excessive stress on the pedicle bone;securing the pedicle screw extender to the tulip head of the pediclescrew; bending a spinal fixation rod to an approximate desired curvatureof the lumbar region; seating the spinal fixation rod into the pediclescrew extender; and securing the spinal fixation rod into the pediclescrew extender.

The method of paragraph C wherein the pedicle screw extender comprises:an upper body portion joined to a lower body portion, the upper bodyportion having two opposing arms extending upwardly from a curved lowersurface to define a substantially U-shaped interior channel having afirst channel axis, the curved lower surface defining an access openingextending through the upper body portion in a direction generallyperpendicular to the first channel axis, the lower body portionextending downwardly as a protrusion from the upper body portion andjoined to the upper body portion and having first and second sides, thefirst and second sides being substantially planar and parallel andseparated by an interior portion, the first and second sides defining aprotrusion height and a protrusion width, and a screw disposed in theinterior portion and having external threads defining a thread diametergreater than the protrusion width.

The foregoing description of embodiments and examples has been presentedfor purposes of illustration and description. It is not intended to beexhaustive or limiting to the forms described. Numerous modificationsare possible in light of the above teachings. Some of thosemodifications have been discussed, and others will be understood bythose skilled in the art. The embodiments were chosen and described inorder to best illustrate principles of various embodiments as are suitedto particular uses contemplated. The scope is, of course, not limited tothe examples set forth herein, but can be employed in any number ofapplications and equivalent devices by those of ordinary skill in theart. Rather it is hereby intended the scope of the invention to bedefined by the claims appended hereto.

We claim:
 1. A pedicle screw tulip head extender, the extendercomprising: an upper body portion joined to a lower body portion, i. theupper body portion having two opposing arms extending upwardly from acurved lower surface to define a substantially U-shaped interior channelhaving a first channel axis, the curved lower surface defining an accessopening extending through the upper body portion in a directiongenerally perpendicular to the first channel axis, ii. the lower bodyportion extending downwardly as a protrusion from the upper body portionand joined to the upper body portion and having first and second sides,the first and second sides being substantially planar and parallel andseparated by an interior portion, the first and second sides defining aprotrusion height and a protrusion width, and iii. a screw disposed inthe interior portion and having external threads defining a threaddiameter greater than the protrusion width.
 2. The pedicle screw tuliphead extender of claim 1, wherein the lower body portion issubstantially a U-shaped protrusion.
 3. The pedicle screw tulip headextender of claim 1, wherein the first and second sides aresubstantially U-shaped.
 4. The pedicle screw tulip head extender ofclaim 1, wherein the two opposing arms each comprise complementary firstinterior threads for receiving a set screw.
 5. The pedicle screw tuliphead extender of claim 1, wherein the screw comprises a driving portionaccessible through the access opening.
 6. The pedicle screw tulip headextender of claim 1, wherein the upper body portion comprises a pocketfor engaging with a rod reducing tool.
 7. The pedicle screw tulip headextender of claim 1, further comprising a pedicle screw, the pediclescrew comprising a tulip head, wherein the lower body portion is securedin the tulip head.
 8. The pedicle screw tulip head extender of claim 1,further comprising a pedicle screw, the pedicle screw comprising a tuliphead and interior threads disposed within the tulip head, wherein theexternal threads of the screw engage the interior threads in the tuliphead.
 9. A pedicle screw tulip head extender, comprising a mounting rodhaving a first end and a second end, the mounting rod being generallystraight at the first end and defining a central rod axis disposed at afirst elevation, the mounting rod being generally turned at an angle onthe second end, and having disposed on the second end a rod securingbody portion comprising two opposing arms each including a portion ofinterior threads and extending from a curved lower surface defining asubstantially U-shaped interior channel that can have a first channelaxis disposed at a second elevation above the first elevation.
 10. Thepedicle screw tulip head extender of claim 9, wherein the mounting rodhas a cylindrical cross section.
 11. The pedicle screw tulip headextender of claim 9, wherein the mounting rod is turned at an angle ofabout 90 degrees.
 12. The pedicle screw tulip head extender of claim 9,wherein the rod securing body portion comprises a pocket for engagingwith a rod reducing tool.
 13. The pedicle screw tulip head extender ofclaim 9, wherein the first channel axis is in a same vertical plane asthe central rod axis.
 14. The pedicle screw tulip head extender of claim9, wherein the first channel axis is in a plane that is substantiallyperpendicular to the plane of the central rod axis.
 15. A pedicle screwtulip head extender, the extender comprising: an upper body portion, theupper body portion having a curved lower surface, two opposing armsextending upwardly from the curved lower surface to define asubstantially U-shaped interior channel, the interior channel having afirst channel axis, the curved lower surface defining an access openingextending through the upper body portion in a direction generallyperpendicular to the first channel axis; a lower body portion joined tothe upper body portion and having first and second sides separated by aninterior portion, the first and second sides extending downwardly fromthe upper body portion and defining two opposing windows between thefirst and second sides; a screw disposed in the interior portion andhaving external threads that extend partially out of the opposingwindows, the external threads configured to engage inner threads of atulip head.
 16. A pedicle screw tulip head extender, the extendercomprising: an upper body portion joined to a lower body portion, i. theupper body portion having two opposing arms extending upwardly from acurved lower surface to define a substantially U-shaped interior channelhaving a first channel axis, the curved lower surface defining an accessopening extending through the upper body portion in a directiongenerally perpendicular to the first channel axis, ii. the lower bodyportion joined to and extending downwardly from the upper body portionand having first and second sides separated by an interior portion, thefirst and second sides defining a protrusion height, a protrusion widthand opposing windows; a screw disposed in the interior portion andhaving external threads defining a thread diameter greater than theprotrusion width such that such external threads can engage innerthreads of first and second tulip arms when the lower portion isinserted into a channel of a tulip head.